RU151232U1 - CABLE FOR ROLLING COMPOSITION OF RAIL TRANSPORT - Google Patents

Abstract

1. Cable for rolling stock of rail vehicles, containing conductive conductors, each of which is coated with silicone rubber compound, which forms a non-conductive ceramic layer during combustion, and a sheath made of silicone rubber compound that does not spread combustion, overlaid, characterized in that the conductive core formed by unidirectionally twisted copper wires and strands. 2. The cable according to claim 1, characterized in that it contains a protective braid of synthetic fibers, laid on top of the sheath. The cable according to claim 2, characterized in that the braid is impregnated with silicone varnish or liquid rubber. 4. The cable according to claim 2, characterized in that a layer of silicone rubber is applied over the braid by extrusion. Cable according to any one of paragraphs. 1-4, characterized in that it is additionally equipped with a screen in the form of a braid of copper wires located between the insulated cores and the sheath.

Description

The utility model relates to cable technology and can be used in the design of electric cables for rolling stock of the subway and other modes of transport.

A cable for rolling stock of rail vehicles is known, comprising a conductive core and insulation made of an organosilicon rubber compound forming a non-conductive ceramic layer during combustion and a sheath of organosilicon rubber compound not spreading combustion (RF patent for utility model No. 49344,2005). This technical solution is the closest to the proposed combination of features. Known cable has a high fire safety, including fire resistance.

However, it has low flexibility. When mounted on rolling stock, the cable undergoes extreme bending, both in the radial direction and in the axial direction. With insufficient cable flexibility, a change in the geometry of the conductive core, deformation of the insulation and the sheath, which increases the likelihood of cable failure during operation of the product.

During installation, the flexible wire requires less effort when assembling it into bundles, laying in cable ducts and connecting to electrical devices. In this regard, the number of cases of deformation of the insulation and the sheath, as well as violations of the geometry of the conductive core, which reduces the likelihood of failure of the wire in the finished product, is reduced.

When developing the claimed cable design for rolling stock of rail vehicles, the technical result was to increase the flexibility of such a cable in combination with high fire safety and fire resistance, which together increased the service life of the finished product.

The technical result is achieved by the fact that in the cable for rolling stock of rail vehicles containing conductive conductors, each of which is coated with insulation from an organosilicon rubber compound forming a non-conductive ceramic layer during combustion and a sheath made of organosilicon rubber mixture that does not propagate combustion overlaid on insulated conductors the veins are formed by unidirectionally twisted copper wires and strands.

The cable may additionally contain a protective braid of synthetic fibers, laid on top of the sheath, while the braid may be impregnated with silicone varnish or liquid rubber or may be coated with a layer of silicone rubber by extrusion. According to any of the embodiments, the cable may comprise a screen in the form of a braid of copper wires laid over insulated cores.

The utility model is illustrated in the drawing, which shows a cable in section. The cable contains conductive conductors 1, insulation 2, shield 3, sheath 4, protective braid 5.

The insulating silicone rubber compounds that form the ceramic layer during combustion are known polymer materials manufactured in Russia and abroad, for example, under the brand name Pentasil 2552 of the Penta company, under the brands ELASTOSIL 502/75 and ELASTOSIL 503/75, by Wacker Chemie AG Germany . The flame retardant silicone rubber compounds used for sheathing wires and cables are also produced in Russia and abroad, for example, under the Pentas brand 2702, under the Unisil 20-8180FR brand of BMP Chemical, under the ELASTOSIL 501 / brand 75, by Wacker Chemie AG Germany.

The manufacturing technology of the proposed cable is traditional for this type of product. So, in particular, the twisting of wires and strands is carried out on standard twisting equipment, and the insulation is applied to the core and then to the insulated cores using an extrusion machine.

Tests of cable samples were conducted in order to determine the coefficient of its flexibility and the moment of bending.

The coefficient of flexibility was defined as the ratio of the diameter of the cable to the diameter of its own bend.

The bending moment is determined by the formula:

M = 9.8 · π · Rc · m / 2

where, m is the mass of one meter of cable in kg;

Rc - own bending radius of the cable in m.

The results are presented in the following table.

Indicators Proposed cable Famous cable Flexibility factor 0,062 0,045 Bending moment, Nm 19.14 27.76

The results showed that the proposed cable is characterized by greater flexibility.

Tests for non-proliferation of combustion during group laying in category "A" according to GOST R IEC 60332-3-22 and fire resistance according to GOST R IEC 60332-3-22 showed compliance of the proposed cable with fire safety requirements.

During installation, a flexible cable requires less effort when assembling it into bundles, laying in cable ducts and connecting to electrical devices. In this regard, the number of cases of deformation of the insulation and the sheath, as well as violations of the geometry of the conductive conductors, is reduced, which reduces the likelihood of cable failure in the finished product.

Thus, a technical result is achieved - increasing the service life of the finished product.

Claims (5)

1. Cable for rolling stock of rail vehicles, containing conductive conductors, each of which is coated with insulation from an organosilicon rubber compound, forming a non-conductive ceramic layer during combustion, and an overlay sheath made of organosilicon rubber compound that does not propagate combustion, characterized in that the conductive vein formed by unidirectionally twisted copper wires and strands. 2. The cable according to claim 1, characterized in that it contains a protective braid of synthetic fibers, overlaid on top of the sheath. 3. The cable according to claim 2, characterized in that the braid is impregnated with silicone varnish or liquid rubber. 4. The cable according to claim 2, characterized in that on top of the braid a layer of silicone rubber is applied by extrusion. 5. Cable according to any one of paragraphs. 1-4, characterized in that it is additionally equipped with a screen in the form of a braid of copper wires located between the insulated cores and the sheath.

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